Structural Design And Parameter Optimization Of Linear Explosive

Building A Linear Explosive Assault Urban Combatives Based on the traditional optimization method, a multi objective optimization method based on an approximate model is used for the structural design of linear explosive forming projectile (lefp). in this paper, four different methods are applied to optimize the structure of lefp. Based on the traditional optimization method, a multi‐objective optimization method based on an approximate model is used for the structural design of linear explosive forming.

Parameter Map Of The Design Of The Explosive Driver Showing The Effects Adequate formation effect is a criterion for a desirable penetration performance of shaped charges. therefore, investigating the formation characteristics of lefps in different media and optimizing the structural parameters are important tasks. The results show that the velocity, length diameter ratio and specific kinetic energy of the lefp were closely related to the structural parameters of the shaped charge. after the optimization of charge structure, the forming effect and penetration ability of lepp had been significantly improved. Article "structural design and parameter optimization of linear explosive forming projectile" detailed information of the j global is an information service managed by the japan science and technology agency (hereinafter referred to as "jst"). Based on the traditional optimization method, a multi objective optimization method based on an approximate model is used for the structural design of linear explosive forming projectile (lefp). in this paper, four different methods are applied to optimize the structure of lefp.

Pdf Mechanism And Structural Parameter Optimization Method Of Linear Article "structural design and parameter optimization of linear explosive forming projectile" detailed information of the j global is an information service managed by the japan science and technology agency (hereinafter referred to as "jst"). Based on the traditional optimization method, a multi objective optimization method based on an approximate model is used for the structural design of linear explosive forming projectile (lefp). in this paper, four different methods are applied to optimize the structure of lefp. The forming effect of lefp is analyzed, the structural parameters of lefp are designed, and the structure of shaped charge is optimized by combining genetic algorithm (nsga‐ii) and sequence quadratic programming (nlpql). the pulsed x‐ray experiment of scale lefp is carried out. In order to optimize the structure of explosively formed projectile (efp) warhead, a new method based on grey system theory approach is proposed in this paper. The forming effect of lefp is analyzed, the structural parameters of lefp are designed, and the structure of shaped charge is optimized by combining genetic algorithm (nsga‐ii) and sequence quadratic programming (nlpql). After detonation, the explosive products create enormous pressures that accelerate the liner while simultaneously reshaping it into a rod or some other desired shape.

Inï Uence Of Shaped Charge Structure Parameters On The Formation Of The forming effect of lefp is analyzed, the structural parameters of lefp are designed, and the structure of shaped charge is optimized by combining genetic algorithm (nsga‐ii) and sequence quadratic programming (nlpql). the pulsed x‐ray experiment of scale lefp is carried out. In order to optimize the structure of explosively formed projectile (efp) warhead, a new method based on grey system theory approach is proposed in this paper. The forming effect of lefp is analyzed, the structural parameters of lefp are designed, and the structure of shaped charge is optimized by combining genetic algorithm (nsga‐ii) and sequence quadratic programming (nlpql). After detonation, the explosive products create enormous pressures that accelerate the liner while simultaneously reshaping it into a rod or some other desired shape.

Pdf Optimization Of The Production Process Characterization And The forming effect of lefp is analyzed, the structural parameters of lefp are designed, and the structure of shaped charge is optimized by combining genetic algorithm (nsga‐ii) and sequence quadratic programming (nlpql). After detonation, the explosive products create enormous pressures that accelerate the liner while simultaneously reshaping it into a rod or some other desired shape.